Proton conducting Y‐doped BaZrO3, BaCeO3 and their solid solutions are receiving
increasing attention due to their promising application as electrolytes in ceramic fuel cells …

Electrolyte layer, made up of an ionic conductor with ignorable electronic conductivity, plays
vital roles in transporting ions as well as blocking electron passage in electrochemical …

Abstract Y‐doped BaZrO3 (BZY) is currently the most promising proton‐conductive ceramic‐
type electrolyte for application in electrochemical devices, including fuel cells and …

A comparative study is performed to investigate the electrochemical performance of the low-
temperature ceramic fuel cells (CFCs) utilizing two different novel electrolytes. First, a …

Fast oxygen-ion conductors for use as electrolyte materials have been sought for energy
conversion and storage. Bi2O3-based ionic conductors that exhibit the highest known …

Low-temperature solid oxide fuel cells (LT-SOFCs), which can operate at 600° C or lower,
have recently emerged as a promising technology for widespread applications because of …

Ion-conducting solid electrolytes are widely used for a variety of purposes. Therefore, there
is a high demand for the design of highly ion-conductive materials. Theoretical simulations …

Combinatorial chemistry has been proven effective in the search for novel functional
materials, especially in the field of organic chemistry, and is being used to identify functional …

Materials exhibiting outstanding ion transport properties have been investigated for
extensive applications, and there has been an increasing demand for the rational design of …

It is important to find crystal structures with low formation (Ev) and migration-barrier (Em)
energies for oxygen vacancies for the development of fast oxygen-ion conductors. To …